ES2300450T3 - IMPROVED FLOW LIMITING VALVE. - Google Patents

Abstract

A flow limiting valve (20) comprising: a body (24) for guiding a plate (40) and for holding a magnet (34), which body (24) has a plurality of arms (32) extending radially towards inside from an outer fixing part to be fixed inside the inner periphery of a conduit (22), said body (24) defining a magnet support part (34) in a radially inner extension, which valve plate mentioned (40) it is normally pushed towards said magnet (34), but it can move away from said magnet (34) if the flow through said valve (20) increases above a predetermined value, characterized in that said arms (32) also guide said plate valve (40).

Description

Enhanced flow limiting valve.

Background of the invention

The present invention relates to a valve flow restrictor designed to control the flow through a conduit, where the valve minimizes the pressure drop across of the valve and also reduces the number of parts that They are usually needed.

Flow limiting valves are used to limit the flow through a conduit. In general, in some way to keep the valve in position generally open said valve is kept in an open position that allows flow through the conduit if the volume of flow that Pass through the conduit is at a predetermined low limit. If he flow increases above the limit, or put another way, if the pressure drop across the valve exceeds a certain value, then the valve changes to a closed position that restricts the flow through the duct.

There is a type of flow limiting valve that use a magnet to keep the valve in a position generally  open The typical known magnet flow limiting valve It is incorporated into a capsule, where the entire structure that provides a valve seat, a valve guide and a support Magnet are all incorporated as a single capsular element. Inevitably, the known technique has resulted in a undesirable pressure drop across the valve due to the large number of parts housed in the flow path of this valve known type.

In addition, valves of the known type have a non-symmetrical structure such that resistance has resulted inadvertent to the flow due to the result of variations in the orientation of the various valve components, which is undesirable.

The document US-A-5,203,365 refers to a flow limiting check valve, according to the preamble of the independent claim 1, comprising a valve magnetically actuated flow limiting retention that allows that the fluid flows through the line when said flow is by below a predetermined magnitude, but close the flow if said magnitude rises above the predetermined limit for prevent uncontrolled flow or discharge of fluids as could occur if a fluid line is broken that includes a single encapsulated or mounted check valve flow in a capsule to facilitate its installation in several flow lines, accessories, piping systems, appliances and their Similar.

The document US-A-2,667,895 refers to a check valve, magnetically pushed, which provides means in a valve to normally keep said valve in a tight position on your seat.

Summary of the invention

In the described embodiments of this invention, a simplified flow limiting valve is provided which involves a relatively small pressure drop across the valve assembly. This is achieved by reducing to the degree possible the number of pieces and eliminating the flow restriction expected to pass through the conduit through the valve assembly when said valve is open. In some embodiments preferred, there is a first part of the body that incorporates a valve guide and a magnet holder that are separated from the valve seat. In some embodiments the seat of valve may consist of a separate valve handle, and in other embodiments the valve seat is constituted by a surface in one of the halves of the duct.

In the second type of realizations of the inventively, the valve is preferably mounted on a connection between two duct parts, so that the valve seat It can be formed in one of those two duct parts. By On the other hand, there is less structure on the outer periphery of the valve that disturbs or otherwise constitutes a limitation to flow. Generally, flow limiting valves allow flow around the outer periphery of the valves when the Valve itself is in its open position. The known technique It has a structure in the flow path, which involves a fall of undesirably high pressure. The present invention incorporates its valve guiding function with a plurality of separate legs circumferentially extending radially inward from a radially outer part. This structure has less flow restriction than the known technique, which extends generally along the entire circumference of the valve. Thus, with the present invention there is less disturbance or resistance to the flow

These and other features of this invention can be better understood from the following specification and drawings, of which, the following is a brief description.

Brief description of the drawings

Figure 1 is a section of a first embodiment of the present invention.

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Figure 2 shows a part of the valve Fig. 1 view in a generally separated direction about 90º from the section in fig. 1.

Figure 3 is a perspective view of the valve of fig. 1.

Figure 4 is an end view of the valve of fig. 1.

Figure 5 illustrates another embodiment of the present invention

Figure 6 is a sectional view of the embodiment of fig. 5.

Figure 7 is an extreme view of the embodiment of fig. 5 from plane B-B.

Figure 8 is a separate end view of the section view of fig. 6.

Figure 9 is an extreme view of another valve.

Figure 10 is another end view of the valve of fig. 9.

Detailed description of a preferred embodiment

As Figure 1 shows, inside a duct 22 a flow limiting valve 20 is positioned. A First body part 24 provides a valve seat at 26. The outer periphery 28 of the valve seat part 24 fits with the inner periphery of the duct 22. There is a part of fluid guide 30 having a generally cylindrical portion and which also adjusts with the inner periphery of the duct 22. Some circumferentially separated arms 32 (figure 2) extend inward These arms hold a magnet 34. A cap of conical shape 36 interconnects the arms; and some ends interiors 38 grab the magnet 34. There is a disk valve 40 that It is mobile inside the arms and towards the valve seat 26. As can be seen, the fluid can flow through an opening 42 generally around the entire circumference of the valve 40, except when it is blocked by 32. Preferably, the valve is  cylindrical in general, so that it is symmetric. In this way, there will be little or no variation in resistance to flow through from step 42, and the pressure drop across the valve is It will minimize compared to the known technique. As the Figure 2, magnet 34 is held within each of the plurality of arms 32. As can also be seen, in this view, the Magnet 34 is also supported by several nails 38.

Figure 3 illustrates valve 20 in perspective. As can be seen, the arms 32 have a part outer peripheral 44 that contacts the inner periphery of the conduit 22. Another connection part 46 also contacts the inner periphery The arms 32 extend radially towards inside, to the frustoconical cap 36, and the nails 38 of the magnet are located separately from cap 36. The valve plate 40 is guided by the arms, to move to and out of the seat valve.

As Figure 4 illustrates, the magnet is retained by nails 38 each of which extends inward to from the trunk cone 36. The arms apart circumferentially 32 have less resistance to fluid than goes through 42 that in the known technique where they surrounded circumferentially the valve. Also, when using a seat separate valve, the present invention provides a set of simple valve

Figure 5 illustrates another embodiment taken by the 5-5 plane indicated in fig. 7. In bliss Figure 5, the conduit is represented as being a conduit of two parts 120 and 122. Between the two parts of the duct is formed a threaded connection 124, while on the face of one of the duct parts a recess 126 is formed. Radially towards a valve seat 128 is provided inside the recess. One opposite end surface 130 of the other duct half 122 encloses a valve assembly 132. Even when the valve assembly 132 is illustrated axially enclosed, the outer periphery of the valve body 132 could also be designed to adjust to pressure inside the duct 120, so that the body of the duct 122 does not need to be positioned at any axial point particular with respect to conduit 120. Valve body 132 holds a magnet 139 adjacent to the valve plate 136. As Figure 6 shows, body 132 does not have arm parts 134 around its entire circumference. Instead, as is the case of the known embodiment, arms 134 are separated circumferentially. An outer part 137 is housed between the duct halves 120 and 122.

Figure 7 is a view considered from the right side to the left of fig. 5. According to said figure 7, the valve is positioned in alignment with a cylindrical cap central 138, which preferably has a relatively diameter small compared to valve plate 136.

Figure 8 shows the valve assembly 132 and the arms 134 extending towards the magnet 139. This view is taken from the right looking to the left.

Figure 9 illustrates yet another embodiment 200. In said embodiment 200 is provided a separate valve seat 202 with a separate valve guide and a support part 204 of magnet. The magnet 206 is housed in a space offered by several arms circumferentially 208. At the front end from the valve guide a retaining structure 210 is provided of plate. The plate 212 is movable forward and selectively sits against a valve seat 214 when the valve seat is positioned to extend radially into the plate retainer 210. As illustrated in Figure 10, there may be 216 spaced sliced portions circumferentially around part 204 of the retainer body of valve 200. These portions will facilitate the limiting movement of the plate 212 into the retaining parts 210 of license plate.

Although some embodiments have been described Preferred of the present invention, an operator of this field will see that certain modifications could fit within the scope of this invention as defined in the appended claims.

Claims (9)

1. A flow limiting valve (20) that understands: a body (24) for guiding a plate (40) and for holding a magnet (34), which body (24) has a plurality of arms (32) extending radially inwardly from an outer fixing part to be fixed within the inner periphery of a conduit (22), said body (24) defining a magnet support part (34) in a radially internal extension, which cited valve plate (40) is normally pushed towards said magnet (34), but it can move away from said magnet (34) if the flow through said valve (20) increases above a predetermined value, characterized in that said arms (32) also guide said valve plate (40). 2. A valve (20) as set forth in the claim 1, wherein an outer periphery of said plate Valve (40) is distanced from an inner periphery of the conduit (22) when said valve (20) is positioned in a conduit. 3. A valve (20) as set forth in the claim 1, wherein a separate valve seat (26) is associated with said valve body (24) and is also intended to be positioned in a conduit with said body (24) of valve. 4. A valve (20) as described in the claim 1, wherein said magnet (34) is held in a radially central general position, said arms extending (32) to a truncated conical part, with clamping parts (38) intended to retain said magnet (34) in a space for magnet. 5. A valve (20) as set forth in the claim 1, wherein a separate valve seat is associated with said valve body (24) which stops against a part of said valve seat (26) for positioning appropriately said plate (40) in relation to said seat of valve (26). 6. A valve (20) as set forth in the claim 5, wherein said valve body (24) surrounds radially said valve seat (26). 7. A conduit (22) that includes a valve flow restrictor (20) as defined in claim 1, comprising: a valve seat (26), said conduit (22) surrounding said valve seat (26) and said body (24) of valve. 8. A conduit (22) as described in the claim 7, wherein said valve seat (26) is formed to be separated from both said valve body (24) as of said conduit (22). 9. Use of a valve (20) as per set forth in claim 1 in a conduit (22), wherein the conduit (22) surrounding said valve (20) provides a seat of valve (26) to stop against said valve plate (40).